Mechanics promotes coherence in heterogeneous active media

Soling Zimik, Sitabhra Sinha
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Abstract

Synchronization of activity among myocytes constituting vital organs, e.g., the heart, is crucial for physiological functions. Self-organized coordination in such heterogeneous ensemble of excitable and oscillatory cells is therefore of clinical importance. We show by varying the strength of intercellular coupling and the electrophysiological diversity, a wide range of collective behavior emerges including clusters of synchronized activity. Strikingly, stretch-activated currents allow waves of mechanical deformation to alter the activity of neighboring cells, promoting robust global coherence.
力学促进异质活性介质中的相干性
构成心脏等重要器官的肌细胞之间的同步活动对生理功能至关重要。因此,在这种由可兴奋和振荡细胞组成的异质集合体中进行自组织协调具有重要的临床意义。我们的研究表明,通过改变细胞间耦合的强度和电生理的多样性,可以出现多种集体行为,包括同步活动集群。令人震惊的是,拉伸激活电流允许机械变形波改变邻近细胞的活动,从而促进强大的全局一致性。
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